Several intuitionistic fuzzy hamy mean operators with complex interval values and their application in assessing the quality of tourism services

In order to assess the quality of senior tourism services in vacation destinations, we examine complex interval valued intuitionistic Fuzzy Dombi Hamy Mean (CIVIFDHM) operators. These operators successfully manage imprecision and uncertainty in the preferences of senior tourists. However, the Hamy mean (HM) operator can identify the connections between various input data sets and produce excellent outcomes when combining and evaluating information. We illustrate their usefulness and efficacy through a case study, providing a strong instrument for improving service quality for senior citizens and promoting an inclusive and fulfilling travel experience. In this work, we develop the HM operator and Dombi operations with Complex interval valued intuitionistic fuzzy numbers (CIVIFNs). We recommend the CIVIFDHM operator, complex interval valued intuitionistic fuzzy weighted Dombi Hamy mean (CIVIFWDHM), complex interval valued intuitionistic fuzzy dual Dombi Hamy mean (CIVIFDDHM), and complex interval valued intuitionistic fuzzy weighted dual Dombi Hamy mean (CIVIFWDD) operators. Next, multiple attribute decision making (MADM) models are constructed with the help of CIVIFWDHM and CIVIFWDDHM operators. We provided an evaluation of an older tourism operator in a tourist area as an example to show the suggested models.


Introduction
In the classical set, the universe of things is split into two categories: members and non-members.This type of instance only employs integer numbers, such 0 or1.Certain things, like splendor, information, and other phenomena, are just too complex for the classical approach to completely explain.Zadeh [1] The idea of fuzzy sets (FSs), a function that expresses the notion of membership element in the interval form [1], was first developed in 9965, as a result of this occurrence.While this framework of work solves many models, it is not able to define classical set theory terms such as attractiveness, age, or height.Certain operations of the Fuzzy Set (FS) were defined by Zadeh [2].Atanassov [3] The notion of the FS is broadened in this theory by defining the interval valued intuitionistic fuzzy sets (IVIFSs) according to the non-membership grade (NG) and membership grade (MG).Based on the MG and NMG interval of [1], Yager [4] devised the concept of the Pythagorean Fuzzy set (PyFs).In order to broaden the scope of MG and NG, Yager [5] proposed the q-Rung Orthopair Fuzzy Set (q-ROFS) [6], which is the framework for both PyFSs and IFSs.Cuong [7] proposed the Picture Fuzzy Set (PFS) and intended the entire notion of FS [8] and IFS [9].Picture Fuzzy Numbers (PFNs), were defined by Wang [10].In group decision making, Xu [11] introduced a few aggregation operators.The process of choosing the best option is known as group decision making [12].The best thing can be chosen by authors with ease.Chen [13] The weight of this operator is determined by higher priority criteria, and the use of LINMAP, a linear programming technique for multidimensional analysis of preference, is used to investigate multiple attribute decision making (MADM) employing IVIFNs.Based on the (IVIFNs), Hashemi [14] defined the idea of multiple attribute decision making.Gary [15] In this decision, the many attribute group decision making is defined and the theory of several choice markers is compared.Additionally, Garg [15] constructs fuzzy sets within the framework of decision-making theories (IFSs), and (IVIFSs) are expanded to include [16] Pythagorean fuzzy sets [17] and image fuzzy sets.

Literature review
While IFSs and IVIFSs have been effectively used in certain contexts, none of the current techniques can adequately capture the relationships among any quantities of CIVIFNs assigned using a variable vector.Hamy mean (HM) operator and dual Hamy mean operator, Wei et al., [18].Garg and others, [19] Known operators that can illustrate connections among a wide variety of arguments provided by a variable vector are listed.A PyFS Hamy Mean operator was suggested by Li et al. in [20].A few HM and DHM operators were established by Wang et al. [21] using the q-ROFS as a basis.[22] Built a complex interval-value q-ROFS using the HM operator.As a result, the HM and DHM operators can choose a trustworthy and flexible process to deal with the combination of facts in MADM problems.To get around these restrictions, we thus propose the use of several HM operators.[23][24][25] Developed the Neutrosophic structured element (NSE) is a concept found in Neutrosophic sets (NS).As a result, one motivating concern is the requirement for a way to aggregate those CIVIFNs based solely on usual HM operators based on Dombi operations [26].[27][28][29][30] Developed the concept of Neutrosophic multi criteria is a decision-making technique that leverages indeterminacy to combine multiple criteria or elements, often with imprecise or unclear data, in order to arrive at a conclusion.[31][32][33][34] Developed the idea of Aczel-Alsina Aggregation Operators.[35] The power Bonferroni mean (PBM) operator is a hybrid structure that can be used to benefit from the power average (PA) operator, which can lessen the impact of inaccurate data provided by biased decision makers (DMs), and the Bonferroni mean (BM), which can take into account the correlation between two attributes.[36][37][38] Introduced the concepts of MADM.The [39] advantage of the Bonferroni mean (BM) operator is that it takes parameter correlations into account, although it only works with sharp values.[40][41][42][43][44] Introduced the concept of Maclaurin Symmetric Mean Aggregation Operators.[45][46][47] Many extended BM operators have been proposed recently to deal with unclear data.[48] Using the single-valued neutrosophic Dombi prioritized average and SVNDPA operators; we introduce several single-valued neutrosophic Dombi prioritized aggregation operators in this study.[49][50][51] Developed the application on economic relocation effect of informal environmental regulations enforced through environmental nongovernmental organizations (ENGOs).[52,53] In this article defined the growth triangular graphs, a new family of graphs, and examine some of their characteristics.Overview One important factor to consider when defining geographic access to healthcare is the burden of travel.This study aims to assist a small number of HM and DHM operators in resolving the MADM for evaluating senior travel services quality at tourism destinations using CIVFNs.[54] Introduced the fuzzy cooperative continuous static games.[55] Developed the idea of single-valued neutrosophic fuzzy soft set used the application of Group decision making.[56] This article defined the interval approximation of piecewise quadratic fuzzy number.

Aims of the study
MADM is an interesting way to select the best option from a group of options.The introduction of the fuzzy theory has revolutionized and progress MADM.Numerous scholars have improved the MADM method by using a variety of venues.[57] Complex IFS (CIFS) to address the MADM issue.[58] Solve the MADM problem with CIFS.[59] The MADM problem was resolved by using Pythagorean fuzzy Dombi aggregation operators.[60] To overcome the MADM problem, PFS Aczel-Alsina average aggregation was used.[61] Solved the MADM problem using complicated single value neutrosophic analysis.[62] Solved the MADM problem with CIVIFS.[63] Use T-spherical fuzzy to solve the MADM problem.[64] Solved the MADM problem with CIVIFS.[65] Solved the MADM problem with CIVIFS.[66] Citation and CIVIFS on structure were used to tackle the MADM problem.[67] The MADM problem was solved by using CIVIFS on the geometry operator.[68] To tackle the MADM problem, picture fuzzy was used with CIVIFS.[69] Addressed the issue of MADM by using CIVIFS on medical tourism.[70] Solved the MADM problem by analyzing two urban settings using CIVIFS.[71] Middle American pictorial manuscripts were subjected to CIVIFS in order to address the MADM issue.[72] Solved the MADM problem with CIVIFS.

Motivation for the research
The following is a list of this paper's contributions: 1.The CIVIFDHM, CIVIFDDHM, CIVIFWDHM, and CIVIFWDDHM operators are some of the new AOs we suggested for the IVIFs, and some relevant attributes are addressed.
2. Based on the CIVIFDHM or CIVIFDDHM operator, we created a brand-new IVIFs MADM approach.
3. By tackling issues pertaining to investment decisions, we assessed the suitability of our proposed aggregation function-based MADM approach.
using CIVIFNs to assess an older, superior tourism service in a tourist area is given in Section 4. In Section 5, the article's conclusion is given.

Preliminaries
2.1.The fundamental ideas of IFS, IVIFS, and CIVIFS are presented in this section as an introduction to the suggested work.These ideas will aid in our comprehension of this content.Definition 1 [3]: Let X be a discourse universe, An CIVIFS Q 0 over X is an purpose with the following system: Where y 0 Q 0 ðxÞ � ½0; 1� and J 0 Q 0 ðxÞ � ½0; 1� is an interval numeral 0 � sup y 0 Q 0 ðxÞ For ease of use let y 0 Q 0 ðxÞ ¼ ½e; U�e 2pi e 0 ;U 0 ½ � À � , Definition 2 [73]: Let a 0 ¼ ½e; U�e 2pi e 0 ;U 0 ½ � ; ½G; S�e 2pi G 0 ;S 0 ½ � � � be an CIVIFN, The following is a definition of a scoring function P: The following is a definition of a scoring function H: In order to gauge how accurate the CIVIFN a 0 ¼ ½e; be the a 0 1 and a 0 2 scores, respectively, and let be the degrees of accuracy of a 0 1 and a 0 2 respectively, then if P a 0 The following is a detailed description of these operating laws:

Dombi operations for CIVIFNs
In this section we decease definition of Dombi T-norm (TN) and T-conorm (TCM) and Dombi operational laws: Definition 7 [26]: Dombi presented a generator that produced the following Dombi TN and TCM: Where β>0,(q,r)2[0,1].We can provide an explanation of the IVIFNs' operational guidelines based on the Dombi TN and TCM.
The following is a definition of the Dombi operational laws: 2pi ; 2pi   ; 2pi   ;    ;

The CIVIFWDHM operator
In a true MADM, attribute weights must be carefully considered.We propose the CIVIFWDHM operator.

The CIVIFDDHM operator
Wu, Wang, Wei, and Wei [74] presented the dual HM(DHM) operator as the CIVIFWDHM Operator.The IVIFDHM operator is presented in this section.Definition 11 [74]: The DHM operator is as trails: The binomial coefficient is denoted by C x h and the expression x = 1,2,. ..,h,i 1 ,i 2 ,. ..,i x represents the x integer values extracted from the set {1,2,. ..,h} of k integer values.

The CIVIFWDDHM operator
Attribute weights are crucial to pay attention to in practical MADM.The CIVIFWDDHM is what we suggest.

Example and comparison
In this section we, definite the example of senior tourism, Influence Analysis in different parameters and compare the result in previse operator.

Numerical example
The popularity of "senior tourism" is continuing to rise as society and the economy continue to develop and as the elderly population grows.The tourism industry for the elderly has grown to be one that cannot be ignored now or in the future and has enormous growth potential.The development of this business is a concern for the tourist locations as well.However, there are still a lot of issues with the tourism services in the destination for senior tourists.Studies on senior tourism have become more prevalent in China recently, but the majority of these studies concentrate on the consumption habits of the elderly, the expansion of the senior tourism industry, and the creation of senior tourism products.As a result, studies on senior tourism services and particularly, the superior quality of these services are incredibly uncommon.Moreover, common MADM problems include difficulties evaluating senior tourism services in tourist areas.We offer an example to dispel any ambiguity that may arise when comparing the caliber of senior tourist carriers at the tourism destination with CIVIFNs.There are five potential tourist destinations to evaluate A 1 Senior Cruises; A 2 Retirement Villages Abroad, A 3 Heritage Tours, and A 4 Health and Wellness Retreats; A 5 Volunteer Travel denoted as A i (i = 1,2,3,4,5).The four characteristics E 1 are being the usable resource safety cost; E 2 being the infrastructure creation price, E 3 being the profits distribution value, and E 4 being the merchandising employment price are used by the experts to assess the five tourist attractions.The five potential tourist attractions need to be evaluated using CIVIFNs w = (0.4,0.1,0.3,0.2).As shown in the Table 1.
Then, we employ the methodology created for determining the greatest scenic sports for tourism.
Step 2: CIVIFWDHM and CIVIFWDDHM are used in the Table 2.
We examine the score and accuracy of information with the help of information in Table 3.
Step 3: Table 4 lists the tourist attractions' scenic locations in Table 3 order.Moreover, the ideal tourist destination isA 3 .
Lastly, we rate each preference and attempt to identify the most advantageous ideal among the set of preferences (refer to Table 4).
The analysis findings are shown in Tables 5 and 6 in order to show how changing X's parameters in the CIVIFWDHM (CIVIFWDDHM) operators affects the ordering.

Influence analysis
The analysis findings are included in Tables 5 and 6 in order to show how changing the parameters for the CIVIFWDHM and CIVIFWDDHM operators affect the ordering.We examined the effects of various parametric values on the outcomes of our existing methodologies.
The alternatives are ranked in the same order across the entire range of values, even when the parameter value varies.Tested on a scale of 1 to 4. This shows that within this range, changes in the parameter have no effect on the ranking orders of the alternatives, which are stable in Tables 5 and 6.
Its Cleary that A 3 is the best alternatives in all of them because A 3 has the higher score value in all different operators.

Comparative analysis
With respect to the IVIFWA operator, we contrast the IVIFWDHM and IVIFWDDHM operators [73] IVIFWG [11] operator Correlation Coefficient [75].Table 7 presents the results.The three strategies can provide the same top tourist attractions, but the outcomes are different.The method now used with IVIFNs, however, does not take the same data into account.IVIFWADHM and IVIFWDDHM, which we suggested, produced the same outcome.Furthermore, for aggregating the IVIFNs, Xu and Chen [76] established the intuitionistic fuzzy Bonferroni mean with interval values.But only information about relationships between two arguments is considered by these Bonferroni techniques for aggregating the IVIFNs; information about relationships between more than two arguments is not considered.

Conclusions
This paper examines the MADM issues related to IVIFNs.Next, we set out some HM operators with IVIFNs, such as the CIVIFDHM operator, CIVIFWDHM operator, CIVIFDDHM operator, and CIVIFWDDHM operator, employing the HM operator and Dombi operations.We investigate the true operation of these operators.Next, we have suggested two fixes for MADM problems with IVIFNs using the CIVIFWDHM and CIVIFWDDHM operators.It is proven that these AOs have three interesting properties: boundedness, idempotency, and monotonicity.In addition, we gave an example of how to solve MADM problems using the CIVIFDHM, CIVIFWDHM, CIVIFDDHM and CIVIFWDDHM operators.Finally, the complex methodology is illustrated with a real-world example of evaluating the standard of an outdated tourism service within a tourist area.We further study the behavior of these operators by varying the values of the crucial parameters X.In addition to CIVIFWDDHM and CIVIFWDDHM operators, we also compared the suggested operators with CIVIFWDDHM and CIVIFWDDHM.The extension and application of IVIFNs in a range of distinct uncertain circumstances and packages must be examined in the ensuing studies.Our immediate goals include concentrating on game theory, artificial intelligence, machine learning, and Complex T-SFS.All the notations are detailed in Table 8.